UMLS:C0004134 - FACTA Search

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Query: UMLS:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Clinical abnormalities in multiple sclerosis (MS) have classically been considered to be caused by demyelination and/or axonal degeneration; the possibility of molecular changes in neurons, such as the deployment of abnormal repertoires of ion channels that would alter neuronal electrogenic properties, has not been considered. Sensory Neuron-Specific sodium channel SNS displays a depolarized voltage dependence, slower activation and inactivation kinetics, and more rapid recovery from inactivation than classical "fast" sodium channels. SNS is selectively expressed in spinal sensory and trigeminal ganglion neurons within the peripheral nervous system and is not expressed within the normal brain. Here we show that sodium channel SNS mRNA and protein, which are not present within the cerebellum of control mice, are expressed within cerebellar Purkinje cells in a mouse model of MS, chronic relapsing experimental allergic encephalomyelitis. We also demonstrate SNS mRNA and protein expression within Purkinje cells from tissue obtained postmortem from patients with MS, but not in control subjects with no neurological disease. These results demonstrate a change in sodium channel expression in neurons within the brain in an animal model of MS and in humans with MS and suggest that abnormal patterns of neuronal ion channel expression may contribute to clinical abnormalities such as ataxia in these disorders.
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PMID:Sensory neuron-specific sodium channel SNS is abnormally expressed in the brains of mice with experimental allergic encephalomyelitis and humans with multiple sclerosis. 1102 57

Two young females with severe morbid obesity presented with Wernicke's syndrome after Roux-en-Y gastro-jejunum bypass had been performed. The first patient had recurrent vomiting and dyplopia two months post-surgery. Physical examination indicated bilateral ophthalmoparesia with conserved convergence and ataxia. The second patient had frequent vomiting episodes over the previous three months together with lower limb hypotonia, myoclonia and generalised tonicoclonic seizures on two occasions within one year of surgery. In both cases routine blood test, ion levels (sodium, potassium, calcium, phosphates), electroencephalogram and CT scan were normal. Thiamine therapy was instigated on the basis of clinical intuition and the first patient achieved complete remission within 24 hours while the second improved gradually in that two years later only mild lower limb hypotonia and a slight cognitive deficit remains. Erythrocyte transketolase activity determinations were abnormal on two separate occasions for this second patient. Vitamin B1 determinations were not available for the first patient. In conclusion, the restriction in energy intake and the persistent vomiting together with malabsorption induced by the surgical intervention could explain the vitamin deficiency causing Wernicke's encephalopathy. This indicates a need for close monitoring and systematic vitamin supplementation in those patients who undergo bariatric surgery.
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PMID:Wernicke's syndrome after bariatric surgery. 1103 Oct 78

An 11-year-old female crossbred dog showed signs of polyuria, polydipsia, vomiting, posterior weakness and ataxia. Clinical and laboratory findings suggested the diagnosis of polycythaemia vera. The haematological values shown over a six-month period are presented. In four samples some aspects of erythrocyte function (glucose-6-phosphate dehydrogenase [G6PD] and pyruvate kinase [PK] activities, 2,3 diphosphoglycerate [2,3 DPG] concentration, osmotic fragility and intracellular sodium and potassium concentrations) were studied. Variable activities of G6PD and PK, probably related to different reticulocyte number, were detected together with normal osmotic fragility and intracellular sodium and potassium concentrations. 2,3 DPG concentration was higher than normal in all four samples. This could be interpreted as a response to a low tissue perfusion rather than a higher content of 2,3 DPG in red blood cells from the polycythaemic dog.
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PMID:Some aspects of erythrocyte metabolism in a dog with polycythaemia vera. 1105 23

Many important aspects of our life are regulated by the free cytosolic Ca2+ concentration. The intracellular Ca2+ signal is regulated both in space, frequency and amplitude. Each cell chooses a unique set of Ca2+ signals to control its function. Ca2+ signal transduction is based on rises in free cytosolic Ca2+ concentration. Ca2+ can come from the extracellular space or be released from intracellular stores. Extracellular Ca2+ enters the cell through various types of plasma-membrane Ca2+ channels and leaves the cell using Ca2+ pumps and Na+/Ca(2+)-exchangers. Ca2+ is accumulated in intracellular stores by means of Ca2+ pumps and is released via inositol 1,4,5-trisphosphate (IP3) and ryanodine receptors. Mutations or abnormalities in one of the above mentioned Ca(2+)-transporting proteins can lead to disease. Skeletal-muscle pathology can be caused by abnormal ryanodine receptors (malignant hyperthermia, porcine stress syndrome, central core disease), plasma-membrane Ca2+ channels (hypokalemic periodic paralysis, muscular dysgenesis mice, paraneoplastic Lambert-Eaton myasthenia syndrome) or Ca2+ pumps (Brody disease). Neurologic disorders can be related to altered function of plasma-membrane Ca2+ channels (episodic ataxia type 2, spinocerebellar ataxia type 6, familial hemiplegic migraine, glutamate excitotoxicity, tottering, leaner, lethargic and stargazer mice), IP3 receptors (Lowe's oculocerebrorenal syndrome, manic depression, Alzheimer's disease, opisthotonos mice) and Ca2+ pumps (deafwaddler mouse and wriggle mouse sagami). Two skin diseases are caused by Ca(2+)-pump mutations (Darier disease and Hailey-Hailey disease). Incomplete X-linked congenital stationary night blindness is caused by a mutation in the plasma-membrane Ca2+ channels in rods and cones.
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PMID:[Intracellular calcium: physiology and physiopathology]. 1119 78

Clenbuterol, a lipophilic beta2-adrenoceptor agonist, was investigated in various seizure models of experimental epilepsy. In the maximal electroshock seizure threshold test, clenbuterol (> or =4 mg/kg i.p.) increased the electroconvulsive threshold for tonic seizures in mice. In the traditional maximal electroshock seizure (MES) test in mice, ED50 values of 11 mg/kg i.p. or s.c. were determined. In both models, the beta2-receptor antagonist ICI 118.551 did not antagonize the anticonvulsant activity of clenbuterol. Combinations of clenbuterol with standard antiepileptics revealed additive anticonvulsant effects. Repeated administration of clenbuterol (5 mg/kg s.c., twice daily for 14 days) to mice did not significantly influence its anticonvulsant potency or the effectiveness of phenobarbital in the MES test. In various chemically-induced seizure tests with tonic convulsions, clenbuterol inhibited or tended to suppress the tonic phase. However, this drug was not effective in preventing clonic seizures in the pentylenetetrazol (85 mg/kg s.c.) seizure threshold test. In the rotarod ataxia test (mice), a minimal "neurotoxic" dose (TD50) of 41 mg/kg i.p. was determined. In unrestrained rats with chronically implanted electrodes in the dorsal hippocampus, clenbuterol (2 mg/kg and 4 mg/kg i.p.) significantly reduced the duration of electrically evoked hippocampal afterdischarges. In amygdala-kindled rats, clenbuterol (5 mg/kg and 10 mg/kg i.p.) reduced the seizure severity to stage 3. Additional studies indicated that clenbuterol (6 mg/kg i.p.) increased the heart rate and decreased the blood pressure, but this drug did not alter the plasma level of the two tested antiepileptics phenobarbital and carbamazepine. Furthermore, in whole-cell voltage-clamp experiments on cultured neonatal rat cardiomyocytes, clenbuterol (1-100 microM) depressed the fast sodium current in a concentration- and frequency-dependent manner. In conclusion, the anticonvulsant effects of higher doses of clenbuterol against generalized tonic-clonic and complex partial seizures seem to be related to the inhibition of voltage-dependent sodium channels and not to the modulation of beta-adrenoceptors.
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PMID:Anticonvulsant and sodium channel blocking activity of higher doses of clenbuterol. 1121 71

Channelopathy is a term used to describe clinical problems caused by disorders of membrane ion channels. Included in this disease category are certain types of periodic paralyses, ataxia, myotonia, migraine headache, epilepsy, nephrolithiasis, and long QT syndrome. This article briefly summarizes membrane ion channel structure and function and details several relatively common channelopathies. In hyperkalemic periodic paralysis, mutant skeletal muscle sodium channels fail to close completely after an action potential. This evokes two apparently opposite symptoms: myotonia (caused by a small depolarization and repetitive excitation) or paralysis (caused by larger depolarization and inexcitability). In hypokalemic periodic paralysis, mutation affects the closing of skeletal muscle calcium channels, causing transient paresis or paralysis. The task of the advanced practice nurse is to recognize these disorders, institute appropriate prophylactic measures and treatments, monitor symptom progression, and avoid complications. Understanding of channelopathies is advancing rapidly. On the horizon are therapies tailored to counter specific membrane ion channel defects.
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PMID:Channelopathies: potassium-related periodic paralyses and similar disorders. 1123 35

There are many diseases related to ion channels. Mutations in muscle voltage-gated sodium, potassium, calcium and chloride channels, and acetylcholine-gated channel may lead to such physiological disorders as hyper- and hypokalemic periodic paralysis, myotonias, long QT syndrome, Brugada syndrome, malignant hyperthermia and myasthenia. Neuronal disorders, e.g., epilepsy, episodic ataxia, familial hemiplegic migraine, Lambert-Eaton myasthenic syndrome, Alzheimer's disease, Parkinson's disease, schizophrenia, hyperekplexia may result from dysfunction of voltage-gated sodium, potassium and calcium channels, or acetylcholine- and glycine-gated channels. Some kidney disorders, e.g., Bartter's syndrome, policystic kidney disease and Dent's disease, secretion disorders, e.g., hyperinsulinemic hypoglycemia of infancy and cystic fibrosis, vision disorders, e.g., congenital stationary night blindness and total colour-blindness may also be linked to mutations in ion channels.
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PMID:Ion channels-related diseases. 1131 Sep 70

We report the case of a 54-year-old alcoholic female patient who was hospitalized for neurologic alterations along with a severe hyponatremia (plasma Na+: 97 mEq/l). She suffered from potomania and was given, a few days before admission, a thiazide diuretic for hypertension. A careful correction of plasma Na+ levels was initiated over a 48-hour period (rate of correction < 10 mEq/l/24h) in order to avoid brain demyelination. After a 2-day period of clinical improvement, her neurologic condition started to deteriorate. By the 5th day of admission, she became tetraplegic, presented pseudobulbar palsy, ataxia, strabism, extrapyramidal stiffness and clouding of consciousness. Scintigraphic and MRI investigations demonstrated pontine and extrapontine lesions associated with Gayet-Wernicke encephalopathy. After correction of ionic disorders (hyponatremia, hypokaliemia) and vitamin B (thiamine) deficiency, the patient almost completely recovered without notable disabilities. This case illustrates that profound hyponatremia, in a paradigm of slow onset, can be compatible with life. It also demonstrates that demyelinating lesions, usually considered as a consequence of a too fast correction of hyponatremia, may occur despite the strict observance of recent guidelines. There is increasing evidence to suggest that pontine swelling and dysfunction may sometimes occur in alcoholic patients even in absence of disturbance in plasma Na+ levels. It is therefore of importance, while managing a hyponatremic alcoholic patient, to identify additional risk factors (hypokaliemia, hypophosphoremia, seizure-induced hypoxemia, malnutrition with vitamin B deficiency) for brain demyelination and to correct them appropriately.
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PMID:Central and extrapontine myelinolysis in a patient in spite of a careful correction of hyponatremia. 1177 Aug 3

The human genome contains 10 voltage-gated sodium channel genes, 7 of which are expressed in neurons of the CNS and PNS. The availability of human genome sequences and high-throughput mutation screening methods make it likely that many human disease mutations will be identified in these genes in the near future. Mutations of Scn8a in the mouse demonstrate the broad spectrum of neurological disease that can result from different alleles of the same sodium channel gene. Null mutations of Scn8a produce motor neuron failure, loss of neuromuscular transmission, and lethal paralysis. Less severe mutations result in ataxia, tremor, muscle weakness, and dystonia. The effects of Scn8a mutations on channel properties have been studied in the Xenopus oocyte expression system and in neurons isolated from the mutant mice. The Scn8a mutations provide insight into the mode of inheritance, effect on neuronal sodium currents, and role of modifier genes in sodium channel disease, highlighting the ways in which mouse models of human mutations can be used in the future to understand the pathophysiology of human disease.
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PMID:Sodium channels and neurological disease: insights from Scn8a mutations in the mouse. 1149 24

Spontaneous and induced mutations of neuronal Na+ channels in human patients and mutant mice result in a broad range of neurological-disease. Epilepsy, a disorder of neuronal hyperexcitability, has been associated with delayed inactivation of SCN2A in mice, and with altered kinetics of SCN1A in human patients. Movement disorders including tremor, ataxia, dystonia and paralysis have been observed in mice with mutations of SCN8A. Electrophysiological recordings from neurons isolated from mice with mutations in individual channels reveal the contributions of each channel to in vivo firing patterns. In addition to monogenic disease, Na+ channel mutations are likely to contribute to polygenic disease susceptibility and to normal variation in neuronal function. Advances in molecular methods coupled with genomic sequences from the Human Genome Project will permit identification of many new patient mutations and generation of animal models to dissect their physiological and cellular consequences.
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PMID:Mutations of voltage-gated sodium channels in movement disorders and epilepsy. 1177 52

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